Inhibition of NFATx activation by an oligopeptide: disrupting the interaction of NFATx with calcineurin

Calcium-dependent phosphatase calcineurin (CN) regulates the activation and nuclear translocation of NFAT. We identify here a novel CN-binding motif in one member of the NFAT family, NFATx, and a peptide based on this motif, Pep3. Pep3 binds CN and competes with wild-type NFATx for CN interaction. Amino acid mutations within Pep3 show that multiple amino acid residues are required for the effective functions of Pep3. Ectopic expression of Pep3 in a Th clone via a retrovirus-mediated gene transfer could selectively block the nuclear translocation of endogenous NFATx, whereas it had little effect on the nuclear translocation of another member of the NFAT family, NFATp. Furthermore, in transfection experiments, Pep3 also blocked the nuclear translocation of transfected NFATx, but not NFATp, in the B cell line M12, demonstrating specific inhibition of Pep3 for NFATx. Importantly, several cytokines produced by the T cell clone were severely repressed by ectopic Pep3, and indeed, the production of these cytokines was enhanced by the expression of wild-type NFATx. Our results show selective inhibition of NFATx activation and cytokine expression by Pep3 and suggest a new approach for studying the biology of each NFAT family member. This approach may provide an opportunity for pharmacological targeting of Ca(2+)-dependent signaling events.     

Interaction of the retinoblastoma gene product,RB, with cyclophilin A negatively affects cyclosporin-inhibited NFAT signaling

The retinoblastoma susceptibility gene product, p105Rb (RB), is generally believed to be an important regulator in the control of cell growth, differentiation, and apoptosis. Several cellular factors that form complexes with RB and exert their cellular regulatory functions have been identified, such as the newly identified RB:cyclophilin A (CypA) complex. The physical interactions between RB and CypA were demonstrated by glutathione S-transferase affinity matrix binding assays and immunoprecipitation, followed by Western blot analyses. The N-terminal region of CypA mediated the interaction with RB, whereas the region upstream of the A-pocket of RB was required for binding to CypA. Ectopic expression of RB into Jurkat cells partially blocks the function of cyclosporin (CsA) to inhibit nuclear factor for activation of T cell (NFAT) activation by phorbol ester (PMA) plus ionomycin A (IA), suggesting that RB may prevent CsA inhibition of T lymphocyte activation. These results are further evidenced by the effect of RB on both calcineurin (CN) and NFAT binding activity in vitro, suggesting that the interaction of RB with CypA interferes with the CsA:CypA complex and blocks CsA-inhibited CN activity. These data reveal the functional link between RB and CypA and their involvement in T cell activation signaling.     

A polypeptide inhibitor of calcineurin blocks the calcineurin-NFAT signalling pathway in vivo and in vitro

Calcineurin (CN) controls the immune response by regulating nuclear factor of activated T cells (NFAT). Inhibition of CN function is an effective treatment for immune diseases. The PVIVIT peptide is an artificial peptide based on the NFAT-PxIxIT motif, which exhibits stronger binding to CN. A bioactive peptide (named pep4) that inhibits the CN/NFAT interaction was designed. Pep4 contains a segment of A238L as the linker and the LxVP motif and PVIVIT motif as CN binding sites. Pep4 has strong binding capacity to CN and inhibits CN activity competitively. 11-arginine-modified pep4 (11 R-pep4) inhibits the nuclear translocation of NFAT and reduces the expression of IL-2. 11 R-pep4 improves the pathological characteristics of asthmatic mice to a certain extent. The above results indicated that pep4 is a high-affinity CN inhibitor. These findings will contribute to the discovery of new CN inhibitors and promising immunosuppressive drugs.     

Structural delineation of the calcineurin-NFAT interaction and its parallels to PP1 targeting interactions

Calcineurin is a phosphoprotein phosphatase that channels intracellular Ca signals into multiple biological pathways. Calcineurin is known to interact directly with its substrate nuclear factor of activated T cells (NFAT or NFATc), with other substrates, and with several targeting and scaffold proteins including AKAP79 and Cabin1/cain. The calcineurin-NFAT interaction depends on recognition of a PxIxIT sequence motif present in NFAT-family proteins and in certain other calcineurin-interacting proteins. Here, we define the structural basis for the interaction of calcineurin with NFAT and with other proteins possessing the PxIxIT motif. The calcineurin-PxIxIT contact has a direct parallel in the contact of protein phosphatase 1 with its regulatory proteins, suggesting that the evolution of these related phosphatases involved local remodelling of an ancestral docking site.     

Tyrosine Residues at the Carboxyl Terminus of Vav1 Play an Important Role in Regulation of Its Biological Activity

The guanine nucleotide exchange factor (GEF) Vav1 is an essential signal transducer protein in the hematopoietic system, where it is expressed physiologically. It is also involved in several human malignancies. Tyrosine phosphorylation at the Vav1 amino terminus plays a central role in regulating its activity; however, the role of carboxyl terminal tyrosine residues is unknown. We found that mutation of either Tyr-826 (Y826F) or Tyr-841 (Y841F) to phenylalanine led to loss of Vav1 GEF activity. When these Vav1 mutants were ectopically expressed in pancreatic cancer cells lacking Vav1, they failed to induce growth in agar, indicating loss of transforming potential. Furthermore, although Y841F had no effect on Vav1-stimulated nuclear factor of activated T cells (NFAT) activity, Y826F doubled NFAT activity when compared with Vav1, suggesting that Tyr-826 mediates an autoinhibitory effect on NFAT activity. SH2 profiling revealed that Shc, Csk, Abl, and Sap associate with Tyr-826, whereas SH2-B, Src, Brk, GTPase-activating protein, and phospholipase C-γ associate with Tyr-841. Although the mutations in the Tyr-826 and Tyr-841 did not affect the binding of the carboxyl SH3 of Vav1 to other proteins, binding to several of the proteins identified by the SH2 profiling was lost. Of interest is Csk, which associates with wild-type Vav1 and Y841F, yet it fails to associate with Y826F, suggesting that loss of binding between Y826F and Csk might relieve an autoinhibitory effect, leading to increased NFAT. Our data indicate that GEF activity is critical for the function of Vav1 as a transforming protein but not for NFAT stimulation. The association of Vav1 with other proteins, detected by SH2 profiling, might affect other Vav1-dependent activities, such as NFAT stimulation.     

Cutting edge: tubulin α functions as an adaptor in NFAT-importin β interaction

Upon T cell stimulation, NFAT is dephosphorylated by calcineurin, leading to nuclear translocation via NFAT-importin β interaction. Whereas the process of NFAT dephosphorylation has been well researched, the molecular mechanism of NFAT-importin β interaction remains unknown. In contrast to NF-κB and STAT, no importin α family members have been reported as adaptor proteins for NFAT. Our study shows that tubulin α, but not tubulin β, binds to the N-terminal region of NFAT containing the regulatory and Rel homology domains. Importin β interacts with the NFAT-tubulin α complex rather than NFAT or tubulin α alone, resulting in cotranslocation of NFAT and tubulin α into the nucleus. Furthermore, the interaction is suppressed by acetate-induced tubulin α acetylation at lysine 40. In conclusion, tubulin α functions as an adaptor in NFAT-importin β interaction, and this function is regulated by acetate-induced acetylation.     

Identification and characterization of a novel RNA binding protein that associates with the 5'-untranslated region of the chloroplast psbA mRNA

Binding of proteins to chloroplast-encoded mRNAs has been shown to be an essential part of chloroplast gene expression. Four nuclear-encoded proteins (38, 47, 55, and 60 kDa) have been identified that bind to the 5'-untranslated region of the Chlamydomonas reinhardtii psbA mRNA with high affinity and specificity. We have cloned a cDNA that represents the 38 kDa protein (RB38) and show that it encodes a novel RNA binding protein that is primarily localized within the chloroplast stroma. RB38 contains four 70 amino acid repeats with a high percentage of basic amino acids, as well as an amino-terminal extension predicted to act as a chloroplast import sequence. We demonstrate that the 38 kDa precursor protein is imported into isolated chloroplasts and interacts with high specificity to uridine-rich regions within the 5'-untranslated region of the psbA mRNA. While database searches have identified hypothetical proteins from several other eukaryotic species with high sequence similarity to the deduced amino acid sequence of RB38, no proteins with homology to RB38 have been biochemically characterized. Bioinformatic analysis of the RB38 sequence, together with structure analysis using circular dichroism and protein modeling, suggests that the 70 amino acid repeats within RB38 are similar in fold to previously identified RNA binding motifs, despite limited sequence homology.     

TRAF3 negatively regulates calcineurin-NFAT pathway by targeting calcineurin B subunit for degradation

Calcineurin (CN) is the only serine/threonine specific protein phosphatase regulated by Ca(2+) /calmodulin (CaM), which is composed of catalytic A subunit (CNA) and regulatory B subunit (CNB). Tumor necrosis factor (TNF) receptor associated factor 3 (TRAF3) is an essential component in the Toll like receptors and TNF receptors (TNFRs) pathways. The TRAF domain of TRAF3 interacts with a large range of proteins, which share consensus sequences known as TRAF interacting motifs (TIMs). By sequence alignment, we identified two potential TIMs in CNB. However, the relation between TRAF3 and CN has not been reported before. To explore this, we highly expressed the former insoluble TRAF domain of TRAF3 in soluble form by using CaM fusion system for the first time. We demonstrated that the TRAF domain of TRAF3 interacted with CNB. On further investigation, over-expression of TRAF3 inhibited endogenous CN's activity, which decreased NFAT reporter activity and IL-2 production. Knock-down of TRAF3 partially enhanced CN's activity. The possible mechanism was that TRAF3 functioned as ubiquitin E3 ligase for CN and promoted its degradation. ? 2012 IUBMB IUBMB Life IUBMB Life, 64(9): 748-756, 2012.     

老年痴呆症相关基因Nicastrin的转录调控

APP蛋白经过降解,形成老年痴呆症患者脑内老年斑的主要成分.由PS(早老素),NCT,PEN-2和APH-14种膜蛋白组成的γ分泌酶催化该降解过程.为了了解人类nicastrin(NCT)基因的转录调控机制,确定了其在人脑中的转录起始位点以及其编码区上游大小不等片段的转录起始活性.EMSA分析证实NCT启动子区的4个AP-1结合位点和2个NFAT结合位点能够与相应的转录因子结合,能够改变转录因子调控能力的定点突变和PDTC诱导使得NCT启动子在HeLa细胞和人鼠皮质神经元中的启动活性都有所改变.以上结果说明:AP-1和NFAT确实参与了人类NCT基因的转录调控.